Method for transmitting layer 2 packet and access device thereof

ABSTRACT

A method for Layer 2 packet transmission is disclosed, where a corresponding relationship between packet attribute information and public MAC addresses is configured in an access device such that the access device could find a corresponding public MAC address in the corresponding relationship when receiving a packet from a user terminal, replaces the source MAC address with the public MAC address found, and then sends the packet to a convergence layer device. A method for transmission of a Layer 2 packet without character information is also disclosed. The access device needs to obtain the packet attribute information and carry the information in the packet to be sent to the convergence layer device. An access device is also disclosed. As a result, the capacity of the VLAN and the MAC address table items needed for the convergence layer device to convert MAC addresses is greatly decreased.

CROSS-REFERENCE TO RELATED PATENT APPLICATION

This application is a continuation application of a U.S. application Ser. No. 11/596,491, filed Jan. 17, 2007, entitled “METHOD FOR TRANSMITTING LAYER 2 PACKET AND ACCESS DEVICE THEREOF,” by Haijun W U, which itself claims the priority of an international application No. PCT/CN2006/001011, filed May 17, 2006, entitled “A TRANSMISSION METHOD FOR MASSAGE IN LAYER 2 AND AN ACCESS DEVICE THEREOF”, by Haijun W U, which itself claims the priority of a Chinese application No. 200510070611.4, filed May 17, 2005, entitled “METHOD AND DEVICE OF CONVERGING LAYER 2 MAC ADDRESS”, by Haijun W U, the disclosures for which are hereby incorporated herein in their entireties by reference.

FIELD OF THE INVENTION

The invention relates generally to the network communication technology, and more particularly, to a method and an access device for transmitting a Layer 2 packet between an access device and a convergence layer device.

BACKGROUND OF THE INVENTION

At present, an Ethernet interface is used as an uplink interface in most broadband access networks and most convergence networks are the networks constructed based on Layer 2 or Layer 3 switches. As shown in FIG. 1, upon accessed by a user, the broadband access device gets connected with a centralized broadband access server (BRAS) or routing device through the convergence network. Usually, an Ethernet switch or a convergence device may be connected to several to dozens of broadband access devices and each broadband access device may be connected to as many as hundreds of user terminals. Therefore, the number of the users accessing the Layer 2 convergence network may be up to tens of thousands. However, the Ethernet switch performs the switch function based on a media access control (MAC) address and a virtual local area network (VLAN), and the Ethernet switches with MAC based forwarding table of 4 k, 8 k, 32 k and 64 k are used usually at present. Therefore, the switching table items that an Ethernet switch can accommodate are limited.

With the development of multiple services, a family accessing the network with broadband may have a plurality of service terminals and each terminal has a Layer 2 MAC address. As a result, the capacity of the VLAN and MAC address table items currently supported by the convergence network are unable to satisfy the demand of the service development.

To enable the convergence layer device to satisfy the demand of the service development, a method for performing Layer 3 routing in a broadband access device, such as a digital subscriber line access multiplexer (DSLAM), may be adopted. That is, upon receiving a Layer 2 packet from a user terminal, the broadband access device replaces a source Layer 2 MAC address in the packet with a Layer 3 interface MAC address thereof. In this way, the packet transmitted upward from the broadband access device only carries a Layer 3 interface MAC address of the broadband access device, thereby the demand for the MAC address forwarding table items associated with the convergence device in the network is dramatically decreased. However, upon performing the Layer 3 protocol, the broadband access device has to assign an IP address for the user thereon. As there are a great number of broadband access devices in the network, the IP address space will be very scattered if each broadband access device is assigned with an IP address segment to achieve the above objective, and this greatly decreases the utilizing ratio of address and goes against the maintenance of the network.

Therefore, a heretofore unaddressed need exists in the art to address the aforementioned deficiencies and inadequacies.

SUMMARY OF THE INVENTION

The present invention provides a method and an access device for transmitting a Layer 2 packet.

In one embodiment, the method for transmitting a Layer 2 packet includes setting up corresponding relationship between packet attribute information and a public media access control (MAC) address and configuring the corresponding relationship in an access device, and the access device receiving a packet from a user terminal, finding the corresponding public MAC address from the corresponding relationship according to the attribute information of the packet, replacing a source MAC address in the packet with the public MAC address, and sending the packet to a convergence layer device.

The attribute information of the packet includes at least one of the type of a protocol adopted by the packet, the type of a link bearing the packet and the type of a user group to which the user terminal sending the packet belongs.

The method further includes: after the access device finds the corresponding public MAC address, the access device obtaining the character information of the packet and setting up an index relationship between the character information of the packet and the source MAC address of the packet.

The character information of the packet includes at least one of a source internet protocol (IP) address, a session identifier (ID) and a destination IP address of the packet.

The method further includes the access device receiving a packet from the convergence layer device, extracting the packet character information from the packet, finding the corresponding source MAC address from the index relationship according to the character information of the packet, and sending the packet to the user terminal.

A method for transmitting a Layer 2 packet carrying no character information, includes setting up corresponding relationship between packet attribute information and a public MAC address and configuring the corresponding relationship in an access device, and the access device receiving a packet carrying no character information from a user terminal, finding the corresponding public MAC address from the corresponding relationship according to the attribute information of the packet, replacing a source MAC address with the public MAC address, obtaining the character information of the packet, making the character information carried in the packet and sending the packet to a convergence layer device, and meanwhile, setting up an index relationship between the character information of the packet and the source MAC address of the packet.

The character information of the packet is user port information corresponding to the packet.

The user port information includes at least one of frame information, slot information and a port number of the access device receiving the packet, and the source MAC address of the packet.

The packet carrying no character information includes the first packet supporting a point-to-point protocol over Ethernet (PPPOE) or a Dynamic Host Configuration Protocol (DHCP) from the user terminal.

The character information of the packet is carried in an Immediate Relay Agent field when the packet carrying no character information is the first packet supporting the point-to-point protocol over Ethernet (PPPOE) from the user terminal.

The method further includes upon receiving the packet from the access device, the convergence layer device storing the character information carried in the packet and setting the character information in a downstream packet before sending the downstream packet to the access device, and upon receiving the downstream packet, the access device extracting the character information from the packet, finding the source MAC address corresponding to the extracted character information according to the self-stored index relationship between the character information of the packet and the source MAC address, replacing the destination MAC address with the source MAC address and sending the packet to the corresponding user terminal.

In another aspect, this invention provides an access device, including an MAC address conversion module, for receiving an upstream packet from a user terminal, finding a public MAC address corresponding to the packet according to self-stored corresponding relationship between packet attribute information and the public MAC address, replacing a source MAC address of the upstream packet with the public MAC address and then sending the packet to a convergence layer device.

The MAC address conversion module is located in a hardware processing unit of the access device.

The access device further includes a user terminal MAC address determining module, for receiving a downstream packet from the convergence layer device, carrying character information of the packet in a user terminal MAC address request and sending the request to the user terminal MAC address conversion module, replacing a destination MAC address of the downstream packet with the user terminal MAC address returned by the user terminal MAC address conversion module and sending the packet to the corresponding user terminal, wherein the user terminal MAC address conversion module is further for use in storing an index relationship between the packet character information and the source MAC address, finding the corresponding source MAC address in the index relationship upon receiving the user terminal MAC address request carrying the packet character information, and sending the source MAC address as the user terminal MAC address to the user terminal MAC address determining module.

The user terminal MAC address determining module is located in the hardware processing unit of the access device.

The access device further includes an application layer MAC address conversion module located in a software processing unit of the access device, for obtaining the public MAC address of the packet from the MAC address conversion module upon receiving the application layer associated upstream packet from the hardware processing unit of the access device, replacing the source MAC address of the packet with the obtained public MAC address and sending the packet to a forwarding module in the hardware processing unit of the access device.

The access device further includes an application layer user terminal MAC address determining module located in the software processing unit of the access device, for receiving the application layer associated downstream packet sent from the hardware processing unit of the access device, requesting the corresponding user terminal MAC address from the application layer MAC address conversion module according to the character information of the packet, replacing the destination MAC address of the downstream packet with the user terminal public MAC address returned from the application layer MAC address conversion module and sending the packet to the forwarding module in the hardware processing unit of the access device, wherein the application layer MAC address conversion module is further for use in storing the index relationship between the packet character information and the source MAC address, and according to the request from the application layer user terminal MAC address determining module, returning the source MAC address corresponding to the packet character information sent from the application layer user terminal MAC address determining module as the application layer user terminal MAC address to the user terminal MAC address determining module.

The application layer MAC address conversion module further includes a user port information obtaining module, for receiving the upstream packet sent by the hardware processing unit and detecting the packet; if the packet contains no character information, acquiring the user port information of the packet from the hardware processing unit and regarding the acquired user port information as the character information of the packet.

In comparison with the prior art, according to this invention, a corresponding relationship between packet attribute information and public MAC address is set up and is configured on the access device. When receiving a packet from a user terminal, the access device finds the corresponding public MAC address from the corresponding relationship according to the attribute information of the packet, replaces the source MAC address with the public MAC address, and then sends the packet to the convergence layer device. As a result, the capacity of the VLAN and the MAC address table items needed for the convergence layer device to convert MAC addresses is dramatically decreased. Meanwhile, it is unnecessary for the access device to assign IP addresses for users, thereby facilitating the maintenance of the network.

These and other aspects of the present invention will become apparent from the following description of the preferred embodiment taken in conjunction with the following drawings, although variations and modifications therein may be affected without departing from the spirit and scope of the novel concepts of the present application.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings illustrate one or more embodiments of the invention and, together with the written description, serve to explain the principles of the invention. Wherever possible, the same reference numbers are used throughout the drawings to refer to the same or like elements of an embodiment, and wherein:

FIG. 1 is a schematic diagram illustrating the networking of the Ethernet;

FIG. 2 is a flowchart for uplink transmission of a Layer 2 packet according to an embodiment of the invention;

FIG. 3 is a flowchart for downlink transmission of a Layer 2 packet according to an embodiment of the invention;

FIG. 4 is the first schematic diagram illustrating the structure of an access device for transmitting a Layer 2 packet according to an embodiment of the invention;

FIG. 5 is the second schematic diagram illustrating the structure of an access device for transmitting a Layer 2 packet according to an embodiment of the invention; and

FIG. 6 is the third schematic diagram illustrating the structure of an access device for transmitting a Layer 2 packet according to an embodiment of the invention.

EMBODIMENTS OF THE INVENTION

In the present invention, according to the attribute of the packets, an access device replaces the source MAC addresses of the packets having the same attribute with one public MAC address, and then sends the packets to a convergence device.

The invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

The transmission of Layer 2 packet mentioned above specifically includes the transmission of an upstream packet and the transmission of a downstream packet, which will be described hereinafter, respectively.

FIG. 2 is a flowchart for uplink transmission of a Layer 2 packet according to an embodiment of the invention. As shown in FIG. 2, the specific steps are described as follows:

Step 201: Pre-configure a corresponding relationship between packet attribute information and public MAC address in an access device.

The packet attribute information may be the type of the protocol adopted by the packet, or the type of the link bearing the packet, such as the type of the permanent virtual channel (PVC) of the user terminal port, or the type of the user group to which the user terminal sending the packet belongs.

Step 202: The access device receives an Ethernet packet from a user terminal.

The Ethernet packet sent from the user terminal to the access device may be an IP over Ethernet (IPoE) packet, or a point-to-point protocol over Ethernet (PPPoE) packet, etc.

Step 203: The access device finds the public MAC address corresponding to the Ethernet packet from the corresponding relationship between packet attribute information and public MAC address according to the attribute information of the Ethernet packet, wherein the corresponding relationship between the packet attribute information and the public MAC address is configured in the access device.

For example, when the packet attribute information is the type of the permanent virtual channel (PVC) of the user terminal port, the MAC address 1 may be used as the public MAC address if the packet comes from the PVC1 of the user terminal port. Similarly, the MAC address 2 may be used as the public MAC address if the packet comes from the PVC2 of the user terminal port, and so on, wherein the user terminal is the terminal sending a packet.

Step 204: The access device obtains the character information of the packet.

The character information of the packet in this step must be the character information of uniqueness distinguishing the packet from others.

The character information may be obtained from the packet when the packet includes the unique character information therein. In this case, the character information of the packet may be a source internet protocol (IP) address, a session identifier (ID), or a destination IP address. For example, the source IP address of the packet may be extracted as the character information when the packet is an IPoE packet or an Address Resolution Protocol (ARP) request packet. The PPPoE session identifier or the source IP address may be extracted as the character information when the packet is a PPPoE packet. The destination IP address packet may be extracted as the character information when the packet is an ARP response packet.

The user port information corresponding to the packet may be used as the character information of the packet when the packet does not include the character information therein, e.g., the character information is not included in the first PPPoE packet or in the first Dynamic Host Configuration Protocol (DHCP) packet sent from a user terminal. The user port information may include the frame information, slot information and port number of the access device receiving the packet, or the user port information may be the source MAC address of the packet, or the user port information may include the frame information, slot information and port number of the access device receiving the packet as well as the source MAC address of the packet. The access device needs to add the user port information corresponding to the packet to the upstream packet, and then, the convergence device adds the user port information to the downstream packet when sending the downstream packet. For example, for the PPPoE uplink packet and downstream packet, the user port information may be added to an Immediate Relay Agent field such that the access device could find the user terminal MAC address corresponding to the destination MAC address of the downstream packet according to the user port information.

Step 205: The access device sets up an index relationship between the character information of the packet and the source MAC address of the packet.

The index relationship is used for converting the Layer 2 MAC address of the downstream packet.

Step 206: The access device replaces the source MAC address of the Ethernet packet with the found public MAC address, and then sends the packet to the convergence layer device.

It can be seen that the MAC address forwarding table items needing to be setup by the convergence layer device are greatly decreased because the access device replaces the source MAC addresses of the packets having the same attribute from the user terminal with one public MAC address, thereby achieving the objective of the invention.

FIG. 3 is a flowchart of transmission of a downlink Layer 2 packet according to an embodiment of the invention. As shown in FIG. 3, the detailed steps are described as follows:

Step 301: The convergence layer device sends a downstream packet to the access device.

If detecting that the upstream packet sent by the access device includes a special packet character information field, the convergence layer device determines that the upstream packet is a packet without the character information thereof. The convergence layer device stores the character information of the packet and adds the character information into the downstream packet when sending the corresponding downstream packet. For example, the character information of the packet may be added to the Immediate Relay Agent field of the downstream packet if the downstream packet is a PPPoE packet.

Step 302: Upon receiving the downstream packet, the access device extracts the character information of the packet.

The packet character information extracted in this step is the same as the packet character information adopted in the process of converting the MAC address of the upstream packet. For example, if the access device uses the source IP address of the upstream packet as the packet character information, the downstream packet character information extracted by the access device in this step should be the destination IP address of the packet. If the access device uses the session ID of the upstream packet as the packet character information, the downstream packet character information extracted by the access device in this step should also be the session ID of the packet. If the access device uses the destination IP address of the upstream packet as the packet character information, the downstream packet character information extracted by the access device in this step should be the source IP address of the packet. If the access device uses the user port information of the upstream packet as the packet character information, the packet character information extracted by the access device in this step should also be the user port information of the packet, and meanwhile, the field carrying the user port information should be deleted from the downstream packet.

Step 303: According to the extracted packet character information, the access device finds the source MAC address corresponding to the packet character information from the self-stored index relationship between the packet character information and the source MAC address, that is, the MAC address of the user terminal to which the packet is sent.

Step 304: The access device replaces the destination MAC address of the packet with the found source MAC address and sends the packet to the user terminal corresponding to the source MAC address.

In a special case, if the downstream packet is an ARP request packet, the access device broadcasts the packet directly to the corresponding user terminal after receiving the packet.

It can be seen that, by the process as shown in FIG. 3, the downstream packet corresponding to the upstream packet of which the MAC address has been converted is able to be sent to the user terminal accurately.

Based on the method provided in the invention, an access device is also disclosed.

FIG. 4 is the first schematic diagram illustrating the structure of an access device transmitting a Layer 2 packet according to an embodiment of the invention. As shown in FIG. 4, the access device includes an MAC address conversion module 41 and a user terminal MAC address determining module 42.

The MAC address conversion module 41 serves to store the corresponding relationship between packet attribute information and public MAC addresses. Upon receiving an upstream packet sent by a user terminal, MAC address conversion module 41 finds the public MAC address corresponding to the packet according to the attribute information of the packet and the corresponding relationship thereof. Then MAC address conversion module 41 replaces the source MAC address of the packet with the public MAC address, sends the packet to the convergence layer device and then stores the index relationship between the packet character information and the source MAC. On the other hand, upon receiving a user terminal MAC address request which carries the packet character information from the user terminal MAC address determining module 42, the MAC address conversion module 41 returns the MAC address of the user terminal to the user terminal MAC address determining module 42.

The user terminal MAC address determining module 42 serves to extract the character information of the packet after receiving the downstream packet sent by the convergence layer device. The user terminal MAC address determining module 42 makes the packet character information carried in the user terminal MAC address request and sends the packet character information to the MAC address conversion module 41. Then, the user terminal MAC address determining module 42 replaces the destination MAC address with the user terminal MAC address returned by the MAC address conversion module 41 and sends the packet to the corresponding user terminal.

As an existing access device mainly includes a hardware processing unit and a software processing unit, wherein the hardware processing unit mainly serves to receive, analyze and forward a packet from the user side and the network side and meanwhile controls the extraction of the packet attribute information and the transmission of the packet, the MAC address conversion module 41 and the user terminal MAC address determining module 42 provided in an embodiment of the invention are set in the hardware processing unit.

Furthermore, as shown in FIG. 5, the access device provided in an embodiment of the invention may includes an application layer MAC address conversion module 43 and an application layer user terminal MAC address determining module 44. The two modules are both located in the software processing unit for the Layer 2 MAC address conversion of an application layer associated packet.

The application layer MAC address conversion module 43 is for use in, upon receiving an application layer associated upstream packet sent by the hardware processing unit, sending a public MAC address request which carries the attribute information of the packet to the MAC address conversion module 41, replacing the source MAC address of the packet with the public MAC address returned by the MAC address conversion module 41, and then sending the packet to a forwarding module in the hardware processing unit of the access device. The forwarding module sends the packet to the convergence layer device and sets up the index relationship between the character information of the packet and the source MAC address of the packet. On the other hand, upon receiving the user terminal MAC address request sent by the application layer user terminal MAC address determining module 44, the application layer MAC address conversion module 43 regards the source MAC address corresponding to the packet character information as the MAC address of the user terminal and returns the source MAC address to the application layer user terminal MAC address determining module 44.

The application layer user terminal MAC address determining module 44, upon receiving the application layer associated downstream packet sent by the hardware processing unit of the access device, sets the character information of the packet in the user terminal MAC address request and sends it to the application layer MAC address conversion module 43, and replaces the destination MAC address of the downstream packet with the user terminal MAC address returned by the application layer MAC address conversion module 43. Then the application layer user terminal MAC address determining module 44 sends the packet to the forwarding module in the hardware processing unit of the access device, which sends the downstream packet to the corresponding user terminal.

Furthermore, as shown in FIG. 6, the application layer MAC address conversion module 43 disclosed in the embodiment also includes a user port information obtaining module 431. The user port information obtaining module 431 serves to receive the application-associated upstream packet sent by the hardware processing unit and detects the packet. If detecting that the packet contains no character information, the user port information obtaining module 431 acquires the user port information of the packet from the hardware processing unit and regards the user port information returned by the hardware processing unit as the character information of the packet.

The foregoing description of the exemplary embodiments of the invention has been presented only for the purposes of illustration and description and is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Many modifications and variations are possible in light of the above teaching.

The embodiments were chosen and described in order to explain the principles of the invention and their practical application so as to activate others skilled in the art to utilize the invention and various embodiments and with various modifications as are suited to the particular use contemplated. Alternative embodiments will become apparent to those skilled in the art to which the present invention pertains without departing from its spirit and scope. Accordingly, the scope of the present invention is defined by the appended claims rather than the foregoing description and the exemplary embodiments described therein. 

1. A method for Layer 2 packet transmission, comprising: receiving, by an access device, a packet from a user terminal; finding a corresponding public media access control (MAC) address from a corresponding relationship between packet attribute information and a MAC address according to attribute information of the packet, wherein the corresponding relationship is configured in the access device; replacing a source MAC address in the packet with the public MAC address; sending the packet with the public MAC address to a convergence layer device; and after the access device finds the corresponding public MAC address, the access device obtaining character information of the packet and setting up an index relationship between the character information of the packet and the source MAC address of the packet, wherein the character information is character information of uniqueness distinguishing the packet from others.
 2. The method according to claim 1, wherein the packet attribute information comprises the type of a protocol adopted by the packet, or the type of link bearing the packet, or the type of a user group to which the user terminal sending the packet belongs.
 3. The method according to claim 1, wherein the character information of the packet is obtained from the packet and comprises a source internet protocol (IP) address, or a session identifier (ID), or a destination IP address of the packet.
 4. The method according to claim 3, further comprising: the access device receiving a packet from the convergence layer device, extracting the packet character information from the packet, finding the corresponding source MAC address from the index relationship according to the character information of the packet, and sending the packet to the user terminal.
 5. The method according to claim 1, wherein the character information of the packet is user port information corresponding to the packet and the obtained character information of the packet is carried into the packet.
 6. The method according to claim 5, wherein the user port information comprises frame information, slot information and a port number of the access device receiving the packet, or the source MAC address of the packet, or the frame information, slot information and port number of the access device receiving the packet as well as the source MAC address of the packet.
 7. The method according to claim 5, wherein the packet comprises a first packet supporting a point-to-point protocol over Ethernet (PPPoE), or a Dynamic Host Configuration Protocol (DHCP) from the user terminal.
 8. The method according to claim 7, wherein the obtained character information of the packet is carried in an Immediate Relay Agent field when the packet is the first packet supporting the PPPoE from the user terminal.
 9. The method according to claim 5, further comprising: upon receiving the packet from the access device, the convergence layer device storing the character information carried in the packet and setting the character information in a downstream packet before sending the downstream packet to the access device; and upon receiving the downstream packet, the access device extracting the character information from the downstream packet, finding the source MAC address corresponding to the extracted character information according to the self-stored index relationship between the character information of the packet and the source MAC address, replacing the destination MAC address with the source MAC address and sending the downstream packet to the corresponding user terminal.
 10. An access device, comprising: a media access control (MAC) address conversion module adapted for: receiving an upstream packet from a user terminal; finding a public MAC address corresponding to the upstream packet according to self-stored corresponding relationship between packet attribute information and the public MAC address; replacing a source MAC address of the upstream packet with the public MAC address; and sending the upstream packet with the public MAC address to a convergence layer device; and a user terminal MAC address determining module adapted for: receiving a downstream packet from the convergence layer device; carrying character information of the downstream packet in a user terminal MAC address request; sending the user terminal MAC address request to the user terminal MAC address conversion module; replacing a destination MAC address of the downstream packet with the user terminal MAC address returned by the user terminal MAC address conversion module; and sending the downstream packet to the corresponding user terminal, wherein the user terminal MAC address conversion module is further adapted for: use in storing an index relationship between the packet character information and the source MAC address; finding the corresponding source MAC address in the index relationship upon receiving the user terminal MAC address request carrying the packet character information; and sending the source MAC address as the user terminal MAC address to the user terminal MAC address determining module; and wherein the character information is character information of uniqueness distinguishing the packet from others.
 11. The access device according to claim 10, wherein the user terminal MAC address determining module is located in the hardware processing unit of the access device.
 12. An access device, comprising: a media access control (MAC) address conversion module adapted for: receiving an upstream packet from a user terminal; finding a public MAC address corresponding to the upstream packet according to self-stored corresponding relationship between packet attribute information and the public MAC address; replacing a source MAC address of the upstream packet with the public MAC address; and sending the upstream packet with the public MAC address to a convergence layer device; an application layer MAC address conversion module located in a software processing unit of the access device, and adapted for: obtaining the public MAC address of the upstream packet from the MAC address conversion module upon receiving the application layer associated upstream packet from the hardware processing unit of the access device; replacing the source MAC address of the upstream packet with the obtained public MAC address; and sending the upstream packet with the public MAC address to a forwarding module in the hardware processing unit of the access device; and an application layer user terminal MAC address determining module located in the software processing unit of the access device, and adapted for: receiving the application layer associated downstream packet sent from the hardware processing unit of the access device; requesting the corresponding user terminal MAC address from the application layer MAC address conversion module according to the character information of the packet; replacing the destination MAC address of the downstream packet with the user terminal public MAC address returned from the application layer MAC address conversion module; and sending the packet to the forwarding module in the hardware processing unit of the access device, wherein the application layer MAC address conversion module is further adapted for: storing the index relationship between the packet character information and the source MAC address; and according to the request from the application layer user terminal MAC address determining module, returning the source MAC address corresponding to the packet character information sent from the application layer user terminal MAC address determining module as the application layer user terminal MAC address to the user terminal MAC address determining module.
 13. The access device according to claim 12, wherein the MAC address conversion module is located in a hardware processing unit of the access device.
 14. The access device according to claim 12, wherein the application layer MAC address conversion module further comprises a user port information obtaining module adapted for: receiving the upstream packet sent by the hardware processing unit; acquiring the user port information of the packet from the hardware processing unit; and setting the acquired user port information as the character information of the packet. 